CN221249861U - Skirt edge conveying belt processing device - Google Patents

Abstract

The utility model discloses a processing device of a skirt conveyer belt, which comprises a conveyer belt body and a skirt conveyer belt, wherein the processing device comprises a high-frequency machine, a feeding mechanism and a skirt forming mechanism, the high-frequency machine comprises a pressing plate capable of being driven to press downwards and a workbench positioned below the pressing plate and used for placing the conveyer belt body, the skirt forming mechanism comprises a stop block provided with a plurality of pits, a plurality of ejection pieces capable of being respectively inserted into the pits, a plurality of cylinders respectively connected with the ejection pieces and a cylinder seat for installing the cylinders, the stop block and the cylinder seat are connected to the bottom of the pressing plate, and the feeding mechanism guides and combs the skirt conveyer belt before entering the stop block. The utility model can automatically process the skirt band of the skirt conveyer belt, improves the shaping processing efficiency of the skirt band and reduces the labor intensity of manpower; the shaping quality of the skirt edge band is improved.

Description

Skirt edge conveying belt processing device

Technical Field

The utility model belongs to the technical field of conveyor belt processing, and particularly relates to a skirt edge conveyor belt processing device.

Background

The skirt conveyer belt is shown in fig. 1, and comprises a conveyer belt body 11 and skirt belts 12, wherein the conveyer belt body 11 is a common plane conveyer belt, and the wavy skirt belts 12 are fixedly arranged on two sides of the surface of the conveyer belt body 11, so that materials can be effectively prevented from scattering to two sides in the transportation process. In the prior art, when processing the skirt conveyer belt, special skirt molds are required to be equipped, wave-shaped inner grooves are formed in the skirt molds, a worker plugs prototype belts of skirt belts into the inner grooves, then the molds and the skirt belts are integrally placed on the surface of the conveyer belt body 11 where the skirt belts need to be pressed, and then a high-frequency machine is started, and a pressing plate of the high-frequency machine presses the molds and the belt, so that the rubber on the surfaces of the skirt belts and the belt is fused together. The prototype belt of the skirt band is a belt body before finger skirt bands are shaped into waves and fixed on the conveying belt body 11, and the skirt band is pressed on the conveying belt body 11 each time, so that the wave patterns of the skirt band are orderly and consistent, and after the skirt band is pressed for one section, the mold is next to the tail end of the just pressed skirt band, and the prototype belt of the skirt band is continuously plugged. However, the skirt mold is heavy and must be lifted to a certain height to reload the prototype tape of the new skirt tape, so that the process of loading the skirt by the worker is laborious and affects the yield and efficiency. Meanwhile, the line drawing measurement is required when the position of the die is manually adjusted, errors inevitably exist, the skirt edge belt is easy to press and deviate, and the die possibly scratches the surface of the conveyor belt body 11, so that the quality of products is affected.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model aims to provide the skirt conveyer belt processing device which can automatically process the skirt belt of the skirt conveyer belt, improve the shaping processing efficiency of the skirt belt and reduce the labor intensity of manpower; the shaping quality of the skirt edge belt is improved; the skirt edge forming mechanism and the leaning mountain are fixed on the high-frequency machine, no deviation exists relatively, the pressed skirt edge belt is accurate in position, manual line drawing measurement is not needed, and the quality of products is improved.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The utility model provides a shirt rim conveyer belt processingequipment, the shirt rim conveyer belt includes conveyer belt body and shirt rim area, processingequipment includes high-frequency machine, feeding mechanism and shirt rim forming mechanism, the high-frequency machine is including the clamp plate that can be driven to push down and be located the workstation that is used for placing the conveyer belt body below the clamp plate, shirt rim forming mechanism is including the dog that is equipped with a plurality of pits, can insert a plurality of liftout pieces of a plurality of pits respectively, connect a plurality of cylinders of a plurality of liftout pieces respectively and install the cylinder block of a plurality of cylinders, the bottom at the clamp plate is connected to dog and cylinder block, feeding mechanism leads and combs the shirt rim area before getting into the dog.

As a further improvement of the above technical scheme:

Preferably, a plurality of elongated depressions arranged in parallel at intervals are provided on one surface of a square plate-like structure to form the stopper, and the depressions are formed by being recessed on one surface of the plate-like structure.

More preferably, the pit cross section is U-shaped.

Preferably, the ejection member has a strip-shaped structure.

Preferably, the ejector member is driven by a cylinder connected thereto to extend into or withdraw from a recess.

More preferably, a plurality of cylinders are arranged in parallel at intervals, and a plurality of ejectors are arranged in parallel at intervals.

Preferably, the feeding mechanism comprises an unreeling roller and a feeding clamp, the skirt band before processing is wound on the unreeling roller, the feeding clamp is arranged at one end of the pressing plate, the pressing plate drives the feeding clamp to synchronously lift, and the free end of the skirt band on the unreeling roller enters the stop block after being carded by the feeding clamp.

Preferably, the feed clamp includes a support mounted at one end of the platen and a roller rotatably mounted on the support, the skirt band contacting and bypassing the roller.

More preferably, the rollers are at least two, each roller is arranged in parallel at intervals in the same plane, the skirt bands are contacted with each roller in turn in an S-shaped path and bypass each roller, and the length direction of each roller is parallel to the length direction of the pit.

Preferably, the feeding mechanism further comprises a horizontal bracket, one end of the horizontal bracket is connected to the high-frequency machine, and the other end of the horizontal bracket is outwards suspended and connected with the unreeling roller.

The beneficial effects of the utility model are as follows:

(1) The skirt band of the skirt conveyer belt can be automatically processed, so that the shaping processing efficiency of the skirt band is improved, a great amount of time cost is saved, and the labor intensity of manpower is reduced;

(2) The skirt edge forming mechanism is arranged on the pressing plate, an additional skirt edge mold is not needed, shaping is carried out through the cooperation of the stop block and the ejection pieces, the positioning accuracy is higher than that of manual operation, the pressed skirt edge is uniform in appearance, scratches are not caused on the surfaces of the conveying belt body and the skirt edge belt, the skirt edge belt is fed into the skirt edge forming mechanism in a straight and non-twisted mode through the cooperation of the feeding mechanism, and the shaping processing quality of the skirt edge belt is improved.

(3) The skirt edge forming mechanism and the leaning mountain are fixed on the high-frequency machine, no deviation exists relatively, the pressed skirt edge belt is accurate in position, manual line drawing measurement is not needed, and the quality of products is improved.

Drawings

FIG. 1 is a schematic view of a skirt conveyor.

Fig. 2 is a schematic diagram of a front view structure of an embodiment of the present utility model.

Fig. 3 is a schematic side view of an embodiment of the present utility model.

Fig. 4 is a schematic top view of an embodiment of the present utility model.

FIG. 5 is a schematic view of a skirt forming mechanism according to one embodiment of the utility model.

FIG. 6 is a schematic view showing the extension of the drive shaft of one cylinder of the skirt forming mechanism according to one embodiment of the present utility model.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the utility model.

Spatially relative terms, such as "above … …," "above … …," "upper surface on … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

A skirt conveyer belt processing device, as shown in fig. 1, comprises a conveyer belt body 11 and a skirt belt 12. The processing device is used for shaping the prototype belt of the skirt belt 12 into a wave shape and fixing the prototype belt on the conveyor belt body 11 to form the wave-shaped skirt belt 12.

The length direction of the conveyor belt body 11 is parallel to the length direction of the skirt band 12, and the height direction of the skirt band 12 is perpendicular to the surface of the conveyor belt body 11. The skirt band 12 has a wavy cross section parallel to its length. It should be noted that the thickness of the skirt band 12 is relatively small, and it may be regarded as a two-dimensional structure having only a length and a height for convenience of description.

The processing device comprises a high-frequency machine 2, a feeding mechanism and a skirt forming mechanism 4.

The high-frequency machine 2 comprises a pressing plate 21 and a workbench 22, wherein the workbench 22 is fixedly arranged on the high-frequency machine 2, the workbench 22 is used for placing the conveyer belt body 11, and a prototype belt of the skirt belt 12 is conveniently fixedly glued on the conveyer belt body 11. The table 22 is fixedly provided with a backup 23 for positioning and limiting the conveyor belt body 11.

The pressing plates 21 are arranged above the workbench 22 at intervals, and the pressing plates 21 can be driven by the driving component to press downwards, so that the prototype belt of the limited skirt belt 12 is pressed on the conveying belt body 11, and the follow-up gluing and fixing are facilitated.

The pressing plate 21 of the high-frequency machine 2 is driven to press down, and the technical solution of gluing and fixing the prototype bands of the conveyor belt body 11 and the skirt band 12 can be adopted in the prior art, for example, the high-frequency machine structure and solution of a patent document high-frequency welding machine (CN 214137376U) can be adopted.

The feed mechanism is used to guide and comb the prototype tape of the skirt tape 12. The feeding mechanism includes an unreeling roller 31, a feeding jig 33, and a horizontal bracket 32.

One end of the horizontal bracket 32 is connected to the high frequency machine 2, and the other end is cantilevered outward and connected to the unreeling roller 31. The unwind roller 31 is rotatably mounted on a horizontal stand 32. The prototype tape of skirt strip 12 (i.e., skirt strip 12 prior to processing) is wound onto unwind roll 31.

The feeding clamp 33 is mounted at one end of the pressing plate 21, and preferably, the feeding clamp 33 is fixedly connected with the pressing plate 21, and the feeding clamp and the pressing plate 21 move together. The feed jig 33 includes a holder fixedly coupled to one end of the platen 21, and a drum rotatably mounted on the holder. The rollers are at least two, and each roller is arranged in parallel and at intervals in the same plane vertical to the horizontal plane. The free ends of the prototype tape of the skirt tape 12 on the unwind roller 31 contact and bypass the rollers, in particular, the skirt tape 12 contacts and bypasses each roller in an S-shaped path in turn, i.e. the prototype tape of the skirt tape 12 passes between each adjacent roller in an S-shaped path in turn.

In this embodiment, four rollers are provided.

The skirt forming mechanism 4 includes a stopper 41, an air cylinder 42, an ejector 43, and an air cylinder block 44.

The stopper 41 is provided with a plurality of elongated depressions 411 arranged in parallel at intervals, and specifically, the stopper 41 is formed by providing a plurality of depressions 411 on one surface of a square plate-like structure, and the depressions 411 are formed by being recessed on one surface of the plate-like structure. Both end portions of each pit 411 on the stopper 41 are flush with both end portions of the other pit 411, respectively. All the recesses 411 on the stopper 41 are located in the same plane. The cross section of the pit 411 is U-shaped. The cross section of the stopper 41 taken in a plane perpendicular to the longitudinal direction of the recess 411 is wavy.

The number of the ejection members 43 is plural, the ejection members 43 are of a strip-shaped structure, the length directions of the ejection members 43 are parallel, and preferably, the length of the pit 411 is the same as the length of the ejection members 43. The two ends of each ejector 43 are flush with the two ends of the other ejectors 43, respectively. The cross section of the ejection member 43 is U-shaped, and the plurality of ejection members 43 can be inserted into the plurality of recesses 411, respectively, preferably, the cross section of the ejection member 43 has the same shape as the cross section of the protrusion between the adjacent two recesses 411. After the ejector 43 is inserted into the recess 411, the gap between the ejector 43 and the recess 411 can clamp the skirt strip 12 placed therein.

The plurality of cylinders 42 are provided, the plurality of cylinders 42 are fixedly connected to the cylinder block 44, and driving shafts of the plurality of cylinders 42 are respectively connected to the plurality of lifters 43. The plurality of driving shafts of the plurality of air cylinders 42 are arranged in parallel at intervals. When the driving shafts of the plurality of air cylinders 42 are fully retracted at the same time or fully extended at the same time, the plurality of ejector pieces 43 are located in the same plane.

The stopper 41 and the cylinder block 44 are connected to the bottom or right below the pressing plate 21, and the pressing plate 21 drives the stopper 41 and the cylinder block 44 to move synchronously. Specifically, the length direction of the concave pits 411 is parallel to the length direction of the ejection members 43, and the plurality of ejection members 43 are aligned with the plurality of concave pits 411, respectively. When the drive shaft of cylinder 42 is retracted, ejector 43 and stop 41 are spaced for entry of the prototype tape of skirt tape 12; when the driving shaft of the air cylinder 42 is extended, the ejector 43 is fed into the recess 411.

The length direction of the roller is parallel to the length direction of the pit 411, and the roller, the stop block 41 and the ejection piece 43 are at the same height, or the inlets of the roller and the skirt forming mechanism are at the same height, so that the prototype tape of the skirt band 12 can enter between the stop block 41 and the ejection piece 43 more smoothly along a straight line after being combed by the roller.

Based on the structure, the working principle and the working process of the utility model are as follows: firstly, a conveying belt body 11 with a skirt edge belt 12 is sleeved on a workbench 22, one side of the conveying belt body 11 is abutted against a mountain 23, and the conveying belt body 11 is positioned and limited through the mountain 23. While the prototype tape of skirt strip 12 is wound onto unwind roller 31 to form a roll. The free end of the roll is then pulled to alternate the prototype tape of skirt strip 12 between adjacent rollers, allowing the prototype tape of skirt strip 12 to pass around the rollers in an S-shape. The prototype tape of the skirt tape 12 coming out of the feed jig 33 passes between the stopper 41 and the ejector 43. In fig. 5 and 6, the prototype of the skirt band 12 passes from left to right between the stopper 41 and the ejector 43, and the drive shaft of the rightmost cylinder 42 is extended, so that the prototype of the skirt band 12 is clamped and formed into a wavy shape. Next, the driving shafts of the remaining air cylinders 42 are sequentially protruded from the right to the left with an interval of 1s for the driving shaft of each air cylinder 42 to be protruded, and the prototype tape of the skirt tape 12 is sandwiched between the stopper 41 and the plurality of ejector pieces 43, and both sides of the prototype tape of the skirt tape 12 are respectively contacted with the stopper 41 and the plurality of ejector pieces 43, so that the prototype tape of the skirt tape 12 is sequentially formed in a wave shape from the right to the left. When the driving shafts of all the air cylinders 42 extend, the pressing plate 21 is pressed down to drive the feeding clamp 33 and the skirt forming mechanism 4 to synchronously press down, so that the bottom of the skirt band 12 extruded into a wave shape is contacted with the surface of the conveyor belt body 11, the high-frequency machine 2 works to weld the skirt band 12 to the surface of the conveyor belt body 11, and the skirt conveyor belt with the skirt band 12 shown in fig. 1 is formed. After the welding is completed, the driving shafts of all the air cylinders 42 are quickly retracted from left to right, the pressing plate 21 is lifted to the original position, and the process of pressing the skirt edge once is completed.

It should be noted that, the skirt forming mechanism 4 is integrally and detachably mounted on the pressing plate 21, so that the skirt forming mechanism 4 is integrally replaceable, that is, skirt forming mechanisms 4 with different specifications can be selected to adapt to the processing requirements of skirt strips with different wave shapes and sizes.

Finally, what is necessary here is: the above embodiments are only for further detailed description of the technical solutions of the present utility model, and should not be construed as limiting the scope of the present utility model, and some insubstantial modifications and adjustments made by those skilled in the art from the above description of the present utility model are all within the scope of the present utility model.

Claims (10)

1. The utility model provides a shirt rim conveyer belt processingequipment, the shirt rim conveyer belt includes conveyer belt body (11) and shirt rim area (12), a serial communication port, processingequipment includes high-frequency machine (2), feeding mechanism and shirt rim forming mechanism (4), high-frequency machine (2) are including clamp plate (21) that can be driven to push down and be located clamp plate (21) below and be used for placing conveyer belt body (11) workstation (22), shirt rim forming mechanism (4) are including dog (41) that are equipped with a plurality of pits (411), can insert a plurality of ejector (43) of a plurality of pits (411) respectively, connect a plurality of cylinder (42) of a plurality of ejector (43) respectively and install cylinder seat (44) of a plurality of cylinder (42), the bottom at clamp plate (21) is connected to dog (41) and cylinder seat (44), feeding mechanism leads and comb shirt rim area (12) before getting into dog (41).

2. The skirt conveyor processing apparatus of claim 1 wherein: a plurality of elongated recesses (411) arranged in parallel at intervals are provided on one surface of a square plate-like structure to form stoppers (41), and the recesses (411) are formed by being recessed on one surface of the plate-like structure.

3. The skirt conveyor processing apparatus of claim 2 wherein: the cross section of the pit (411) is U-shaped.

4. A skirt conveyor processing apparatus according to claim 2 or 3 wherein: the ejector (43) has a strip-shaped structure.

5. The skirt conveyor processing apparatus of claim 1 wherein: the ejector (43) is driven by a cylinder (42) connected with the ejector to extend into a pit (411) or withdraw from the pit (411).

6. The skirt conveyor processing apparatus of claim 1 wherein: a plurality of air cylinders (42) are arranged in parallel at intervals, and a plurality of ejector members (43) are arranged in parallel at intervals.

7. The skirt conveyor processing apparatus according to claim 1 or 2, wherein: the feeding mechanism comprises an unreeling roller (31) and a feeding clamp (33), the skirt strip (12) before processing is wound on the unreeling roller (31), the feeding clamp (33) is mounted at one end of a pressing plate (21), the pressing plate (21) drives the feeding clamp (33) to synchronously lift, and the free end of the skirt strip (12) on the unreeling roller (31) enters a stop block (41) after being carded by the feeding clamp (33).

8. The skirt conveyor processing apparatus of claim 7 wherein: the feed jig (33) includes a holder mounted at one end of the platen (21), and a roller rotatably mounted on the holder, and the skirt band (12) contacts and bypasses the roller.

9. The skirt conveyor processing apparatus of claim 8 wherein: the rollers are at least two, the rollers are arranged in parallel at intervals in the same plane, the skirt edge strips (12) are in S-shaped paths to sequentially contact and bypass the rollers, and the length direction of the rollers is parallel to the length direction of the pits (411).

10. The skirt conveyor processing apparatus of claim 7 wherein: the feeding mechanism further comprises a horizontal bracket (32), one end of the horizontal bracket (32) is connected to the high-frequency machine (2), and the other end of the horizontal bracket is outwards suspended and connected with the unreeling roller (31).